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Author Notes:

This study is supported by grant NIH RO1 CA 212638. Additional support was provided by Imaging Sciences Pathway T32 EB014855 (for MM) from the US National Institutes of Health. We would like to thank Tyler Webb for designing and overseeing the fabrication of the PVC containers. We would like to thank Tianyu Zhao, Jeffery F. Williamson, Joseph A. O’Sullivan for providing constructive suggestions for improving this paper. We would like to thank the anonymous reviewers for constructive suggestions for improving this paper.

Subjects:

Keywords:

  • Geant4
  • physics lists
  • Monte Carlo simulation
  • experimental validation
  • stopping power ratio

Experimental Validation of Proton Physics Models of Geant4 for Calculating Stopping Power Ratio

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Journal Title:

JOURNAL OF RADIOLOGICAL PROTECTION

Volume:

Volume 42, Number 2

Publisher:

Type of Work:

Article | Post-print: After Peer Review

Abstract:

In this work, we conducted experiments to validate the proton physics models of Geant4 (Version 10.6). The stopping power ratios (SPR) of 11 inserts, such as Acrylic, Delrin, High Density Polyethylene (HDPE), and Polytetrafluoroethylene (PTFE), et al., were measured using a superconducting synchrocyclotron that produces a scattering proton beam. The SPRs of the inserts were also calculated based on Geant4 simulation with six physics lists, i.e., QGSP_ FTFP_ BERT, QGSP_BIC_HP, QGSP_BIC, QGSP_FTFP_BERT, QSGP_BERT, and QBBC. The calculated SPRs were compared to the experimental SPRs, and relative percent error was used to quantify the accuracy of the simulated SPRs of inserts. The comparison showed that the five physics lists generally agree well with the experimental SPRs with a relative difference of less than 1%. The lowest overall percentage error was observed for QGSP_FTFP_BERT and the highest overall percentage error was observed for QGSP_BIC_HP. The 0.1 mm range cut value consistently led to higher percentage error for all physics lists except for QGSP_BIC_HP and QBBC. Based on the validation, we recommend QGSP_BERT_HP physics list for proton dose calculation.

Copyright information:

This is an Open Access work distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/).
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